Multifunctional Scaffolds
The technology provides a process for forming nanowires on a variety of metallic substrates. The nanowires generally form 3D scaffolds having interconnected macropores. By varying the process parameters, such as reaction temperature, reactant concentration, and reaction time, the length and diameter of the nanowires may be controlled and concomitantly, the average diameter of the macropores may also be controlled. The process suggested by this technology fabricates robust multifunctional bioscaffolds that are self-assembled from ceramic nanowires and directly coat various materials. Because the nanowire scaffolds are both durable and macroporous, they are useful for a wide variety of both biomedical and dental applications.
Sector: Pharmaceuticals
Country: India
Area of Application: Biomedical industry, Medical industry
Keywords: scaffolds, biomedical
Advantages: Has both biomedical and industrial applications • Orthopedic and dental implant applications • protein cell growth promoters • cardiac or peripheral stents or valves
Environmental aspects: Not Applicable
Development Status: Laboratory Model
Legal Protection: Patent in Progress
Technical specifications:
Transfer Terms: Technology Licensing
Target Countries: India
Estimated cost (US$):
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Contact Person: SkyQuest Technology Consulting Pvt. Ltd.
Address: 501, Krishna Complex, Opp. Devashish School, Bodakdev
City: Ahmedabad
Country: India
Zip/Pin Code: 380054